AI Article Synopsis
- The Getah virus (GETV) is a mosquito-borne virus that primarily affects animals, causing significant health issues like polyarthritis, but there's limited research on its effects in humans and its transmission methods.
- This study explored various mosquito species’ abilities to transmit GETV by analyzing their susceptibility and growth of the virus in both laboratory conditions and living organisms.
- The results showed Culex tritaeniorhynchus as the most competent vector for GETV transmission, while Aedes albopictus and Anopheles stephensi also showed potential for spreading the virus, highlighting a need for broader research on GETV transmission dynamics.
Article Abstract
Background: The Getah virus (GETV) is a mosquito-borne Alphavirus (family Togaviridae) that is of significant importance in veterinary medicine. It has been associated with major polyarthritis outbreaks in animals, but there are insufficient data on its clinical symptoms in humans. Serological evidence of GETV exposure and the risk of zoonotic transmission makes GETV a potentially medically relevant arbovirus. However, minimal emphasis has been placed on investigating GETV vector transmission, which limits current knowledge of the factors facilitating the spread and outbreaks of GETV.
Methods: To examine the range of the mosquito hosts of GETV, we selected medically important mosquitoes, assessed them in vitro and in vivo and determined their relative competence in virus transmission. The susceptibility and growth kinetics of GETVs in various mosquito-derived cell lines were also determined and quantified using plaque assays. Vector competency assays were also conducted, and quantitative reverse transcription-PCR and plaque assays were used to determine the susceptibility and transmission capacity of each mosquito species evaluated in this study.
Results: GETV infection in all of the investigated mosquito cell lines resulted in detectable cytopathic effects. GETV reproduced the fastest in Culex tritaeniorhynchus- and Aedes albopictus-derived cell lines, as evidenced by the highest exponential titers we observed. Regarding viral RNA copy numbers, mosquito susceptibility to infection, spread, and transmission varied significantly between species. The highest vector competency indices for infection, dissemination and transmission were obtained for Cx. tritaeniorhynchus. This is the first study to investigate the ability of Ae. albopictus and Anopheles stephensi to transmit GETV, and the results emphasize the role and capacity of other mosquito species to transmit GETV upon exposure to GETV, in addition to the perceived vectors from which GETV has been isolated in nature.
Conclusions: This study highlights the importance of GETV vector competency studies to determine all possible transmission vectors, especially in endemic regions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10015795 | PMC |
| http://dx.doi.org/10.1186/s13071-023-05713-4 | DOI Listing |
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